Fiber container and method of making the same



June 14, 1938. G. A MooRE l FIBER coNTAmERAND `METHOD 0F MAKING THE 'SAME Filedl lay 2, 1955 5 sheets-sheet 1 June 14, 1938. -G.`A. MO'ORE y 5 y 2,120,900

FIBER CONTAINER An Mn'ran oF MAKING ma SAME med nay 2. 1955 y s sheets-sheet 2 BY maw..

' -ArroR/vm/ f 4 G. A. MOORE June -14, 1938.

' FIBER CONTAINER 'AND METHOD 0F MAKING THE SAME 5 sneSets-sneet :s

INVENToR. 'eorgerlzglon/Moore BY uw 1f-ifm ATNTTORNEY Filed may 2, 1955 June. 14 193s.

G, A. MOoRE FIBER CONTAINER AND 'METHOD OF"4 MAKING THE SAME Filed Hay 2, 1935 5 Sheets-Sheet 4 A TTORNEY June 14, w3., EQ@

l FIBER' comming .AND METHOD oF MAKING THE SAME A. MQQRE.-

' 'Film Maya, 19:55' 5 sheets-sagen l,5

INVENTOR. Y 'eorgeAfrllfgnfwre BY WMA H- ATTORNEY provide l Patented `une 1.4, 1938l man CONTAINER MAKING George Arlington Moore,

to Humoco Corporation,

poration of Delaware THE SAME AND METHOD 0 Louisville, Ky., assignor Louisville. Ky., a cor- Appliestion May 2, 1035, serial N. 19,403

s4 claims. (ci. ca -39.1)

My invention relates to fiber containers andv methods of making the same. and the invention has for its object to provide a container which is' capable of being fabricated inl quantity vby machinery at low cost without causing ruptures or distortions in thematerial or other damage thereto, forming a strong, durable structureimpervious throughout to air, moisture, and-other Further, said invention has for its object to' provide a method in' which the adhesives employed in thel shell fabrication may be applied and activated without contaminating the machinery employedand interfering with` the `operation thereof, and without requiring the use of excess water or `other solvent liable to render the shell 4soft or soggy and unadapted for use in thev subsequent fabricating'steps.

Furth said-invention has for its object to provide a shell -or similar article in whichthe fibrous laminations and interposed adhesive: are protected against entry of moisturethereto with the exposed laps or joints hermeticallycemented to render the same moistureproof.

Further, said invention has for its object to a shell of the character speciiled'in which inner and outer lacquerfflln'isserveas moistureproof adhesives for sealing the exposed lapsr or joints against the entry` of air. and. moisture ,through or into the structure. Further., said invention -has for its object to produce a tubular shell or similar article in which intermediate solvent activated adhesives may be employed without unduly entrapping excess solvent between the impervious suriaces'liabie to interfere with the fabricating operations.

Further, said invention has for its object to produce an air tight .container in which the shell thereofisfabricated from a sheet or sheets of fibrous material having the substances forming'- the coatings and adhesives deposited thereon as dry films so as to render the saine available .in due order or sequence for use or activation as the fabrication proceeds.

Further, said invention has for its object to provide a body or 'shellof laminated ystructure capable ofsetting to shape rapidly 'when'formed and of being used in the subsequent container fabricating operations under the stresses'and strains-,to be imposed thereon.

`Furthen-sald invention has for its object to produce a fiber container of greater length than width in cross-section including substantially vstraight wall portions and rounded or arcuate connecting wall portions. Q

which the welding provide a container Further, said invention has for its object to produce a container in which the straight wall portions of the shell thereof are vreinforced relative vto the arcuate wallportions to form sockets at the ends of the shell of substantially gauge 5 dimensions having uniformly smooth marginal wall portions. l

Further, said invention has for its object to provide a container of the character specified in which the container thereof with the plies of the reinforcement welded together and shaped to form a structure -serving' as an anchorage for a coverv coacting therewith in close iltting,'interlocking relation.

Further, said invention has for its object to` provide a'container of the character specified in winch the container body and the heads therefor are formed jwithout resultant warpage, flange wrinkles, or other distortions and are'maintained to gauge shape so as to enable lthe assembly thereof `with their walls uniformly in tight fltting or snug engagemen Further, said invention has for its i. object I provide a container of the character specified in which the seams or jointsthereof are substantially immume to stresses and strains imposed thereon by differences in air pressure between the inside and outside of the container resulting from changes in temperature or barometric conditions after the container is sealed in air tight conv dition. Further, said invention has for its object to provide a container of the character specified in which the shell and end closure or closures or other overlapping parts are welded together against separation after assembly thereof to form a hermetically sealed, moistureproof juncture 'therebetween of substantial strength and durability.

mrtner, said invention has 'for as'iomect tov 4Q provide a container of the character specified in medium between the welded yparts consists of a thin, dry film of thermo- .plastic adhesive, preferably of relatively low diffusivity, capable of being activated by heat and g pressure. v v Further, said invention has for its object to' of the character specified in which the fibrous walls of'the body and heads are interlocked to form multiple p lyseams hav- 5o ing the raw edges of the walls embedded therein and protected by the contiguous, impervious coatings or -iilms of said 'wallsfto enhance thev impermeability of said container. Further, said invention isreinforced at the 'edge 10l has for its` object u perviousness, strengthor other qualities of the( of together against separation to form hermetic junctures therebetween. Further, said invention has for its object to produce al container in which the yimpervious lacquer-coatings or films employed function as adhesives capable vof being selectively activated by a solvent, heat, or both, to effect the cementation of parts at various stages of the fabrication in the most advantageous manner without the various activations and cementat'ions interfering one with the other or impairing the imresulting container. l Y

Further, said invention lhas for its objectpto provide a container of the character specified in which the seal thereof may be readily severed and manipulated to'obtain access tothe container.

'Other objects will in part be obvious and in part be pointed out hereinafter.

Tothe attainment of the aforesaid objects and ends my invention consists in the novel features of construction and in the combination, connection, and arrangement of parts, and in the steps constituting. the method, hereinafter more fully described and then pointed out in the claims.

In theA accompanying drawings:

Fig. 1 is a front elevation of one form of vcon tainer constructed according to and embodying my said invention,` parts being broken away and v upperA portion of the container on the line 6-'6 parts being shown in sectiom- K Fig. 2 is a side elevation thereof; y

' Fig. 3 is a plan thereof with the cover omitted;

p Fig. 4 is a cross-section of' the vcontainer body i taken on the line 4-4 of Fig. 1;

Fig. 5 isa 'partial rear view of the upper portion of the container;

Fig. 6 is an enlarged vertical section of the of Fig. 5;

Figs. 7 to 9 are diagrammatic views illustrating certain of the steps of fabricating the shell; Fig. 10 is a reduced plan of one form of inner or liner iberI sheet or lamination employed in' 'fabricating the shell;

ing the shell and heads in expanded relation;

Fig. 16-is a sectional elevation, with lparts broken away, illustrating the method of in folding the marginal portion of the shell in forming the seam;

Fig. 1'1 is a sectional elevation illustrating the method of compressing `*and welding the intercalated portions of the seams together; and

Fig. 18 is a greatly enlarged detail sectional view of the-structure of the bottom 'seam of the container.

Referring to Figs. 1v to 6 of the'drawings, the

container generallyA comprises a tubular body or shell I and the flanged heads Il andllla ling cylindrical tubes and shells. cal difficulties involved and the slowness of the disposed therein with the flanges |2 thereof spaced inwardly from the ,margins of the shell.

The body wall and the flanges I2 'of the heads are intercalated to form multiple ply seams or `joints I3 providingreinforcements at the opposite ends of the container.

The invention is particularly applicable to containers which are oblong or oval in crosssection, or which have substantially straight or vflat front and back wall portions, I4 connected by rounded or arcuate wall portions I of relatively short radius. In practice, said arcuate wall portions I5 preferably describe arcs of substantially 180.

Preferably the container includes a cover I6 having a depending tongue or tail I1 at the rear 'thereof cemented and anchored to the outer side of the upper reinforcement I3 at the back, as indicated at I8, the juncture between the reinforcementengaging portion or body I9 of s aid cover I6 and said tongue I'I constituting a ilexible hinge 20 about which the cover isadapted to swing for opening and closing the container in removingv the contents therefrom after the knockout 2| in the base 22 of the contiguous head Il is entirely or partly torn out or severed.

' container and the. method of fabricating the' same will be more fully described hereinafter. x

In my invention, the containers, which are fabricated from ilber, paper stock, or the like,

to be economically produced, must be fabricated in large volume by machinery operating at high rates of speed. 'I'he diillculties involved in the quantity production of fiber containers will be more fully appreciated when it is considered that the particular container herein shown and described as one form of the invention is entirely 'unlike the vordinary cylindrical or square container in shape, and includes two wide, parallel, flat side portions I l connected by arcuate or rounded portions I5 of relatively .short radius.

In order to fabricate a container of the shape contemplated by me, the materials, structural features and methods must be coordinated to produce a satisfactory container in an efficient and economical manner.

In fabricating a laminated 4shell of oblong cross-section it isnot feasible to wind` a paper strip upon a rotating mandrel of corresponding shape to produce a spirally or convolutely wound tubular shell, as is theordinary practice inform- The mechani- "ing shape in superimposed relation and individually secured together at the overlapsv30, 3i, and 32Y thereof by a suitable adhesive. The successive laminations are also secured together in intimate union coextensively with their contacting surfaces by'interveningliilms or layers Vof adhesive, and the surfaces constituting the inner and outer surfaces of the shell are coated with lacquers to render the shell impervious to air and moisture, which lacquers preferably serve in part as cementitious constituents of the container. The fibrous material, adhesives, and lacquers employed lare particularly adapted for lthe method from the standpoint of convenience and speed in forming the shell and for producing a structure capable of conforming to the subsequent fabricating operations and satisfying the' requirements for the finished container.

Because the paper or fiber component of the vshell is subjected to both compressive and tensile strains in the course, of the grooving and seaming operations to be described, one of the chief prerequisites in such paper stock is a long fiber of considerable strength and some elasticity. A cheap normal or super kraft paper which has been subjected to a sulfate bleach satisfies the requirements for strength.

' The paper stock utilized 'in the shell should also offer ya superior surface for adhesion and for preventing excessive absorption of adhesives,

i paper responds well to lacquers, and label inks to be employed in my method.l 4A highly super-calendered sulfate and is not so porous as to absorl) ,undue amounts Y of the materials to be employed with the paper ers of the paper by-the adhesives.

- on thesized side will sustain a lacquer or adhesive film appreciably better than a highly supercalendered paper. The sizing referred to above should not be confused with either fillers, or'

ordinary casein or clay coatings. The ordinary coated papers are not adaptable to ing operations on the shell because of the tendency thereof to shale or scale when subjected .to severe deformations. as above described provides an excellent surface for supporting a film and leaves at the opposite side a surface which readily knits with the contiguous film of adhesive or lacquer.` A paper as thus produced may be more readily wound about the mandrel 29 in forming the shell because such paper is less elastic or springy than supercalend red stock.

As ilustrated diagrammatically in Figs. 'l vto 9 the several fiber sheets or layers 28, 21, 28 composing the shell l0 are cut to size and coated. either before or afterthe cutting, with various adhesives and lacquers .depositedthereon as vdry films.

The fiber sheet 26 which is to form the inner layer or lamination of the shell has deposited upon the inner surface Athereof a thin film 33 (Fig.

7) of thermoplastic lacquer. The fiber sheets 21 which are to form the intermediate or bulk forming layers or laminations (two such being illustrated as one example) have deposited upon s the inner surface thereof a thin film 34 (Fig. 8)

- r the shellL has deposited upon of suitable adhesive `or glue. The fiber sheet 28 which is to form'the outer layer or lamination of thereof a film '35 (Fig, 9) of a suitable adhesive,

and upon the outside thereof a film 38 of a high gloss; transparent, non-'thermoplastic lac- YVquer, preferablyrfcovering suitable printing 31 (Fig. 14) upon the sheet 28 constituting or forming a label.

. 'Ihe thin thermoplastic film 33 constituting the inner liner of the shell while substantially moisprinting and gumming,

be produced which the fabricat- Y A paper sized atone sidethe inner surface f the purpose of hermetically welding together the,

Walls of the end closures or heads Il and lla and the shell l0 to form hermetic joints or seams I3, as hereinafter more fully described.v

The lacquer 33 preferably comprisesa nitrocellulosic .base having incorporated therein properly proportioned amounts of synthetic resin and plasticizer. 'I'he composition 33 is substantially waterproof, because of its nitrocellulosic and resinous composition. yThe thermoplastic property of the film 33 is due first to the plasticizer employed which is such that its solvent action in-4 creases with the temperature and second to' the resinous component which is naturally thermoplastic. -By proper selection and concentration kof plasticizerand resin, the thermoplasticity of the lacquer may be controlled within fairly ac. curate limits. The solvent softeningcharactcristicis predicated largely upon the solubility of the nitro-cotton in the solvent' used. The solubility is considerably accelerated when accompanied by heat, and for this reason the action` of the solvent in'rendering the material adhesive or tacky ris accelerated by the application of mild heat at say', for example, a temperature of 150 to F. l Q

While I do not desire tolbe limited to any particular composition for the thermoplastic lacquer or adhesive employed as the film 33, it must nevertheless possess the properties vsatisfying the requirements of the4 invention. plastic adhesive I employ not only serves as a moistureproof, impervious inner liner or lacquer coating for the shell but also serves as an adhesive capable of being activated by heat without solvent at desirable temperatures for effect- The thermoing the welding together of the walls of the shell I0 and flanges I2 of the heads as more fully described hereinafter, and, if so desired, of being activated by solvent in the presence of heat at lower temperatures for the purpose of sealing the overlap or 'seam 30.

`The composition employed for the film 33 is preferably plasticized to coordinate the thermal responsiveness thereof and its flexibility so that it may be deposited upon the sheet 28 as an extremely thin',dry film substantially free from brittleness and free from tack lat the lower temperature's employed in the fabrication of the container, and preferably devoid of odor, and so that when activated by heat at higher temperatures it softens .without tending to flow or penetrate into the paper to which it has been applied to an extent which would cause the dissipation thereof as a film andrender said film unavailable for welding the parts together. In my invention the film'33 functions better' for effecting the welding as the thickness thereof approaches a minimum,v for example a thickness as small as .0008" or lesshas been found-very effective.` The composition is capable of beingnactivated by heat at temperatures, say, above l50165 F., but preferably not appreciably` in excess of the carbon-izing .temperatureof the paperi for effecting` under pressure the instantaneous welding to-LA gether of the closely-tting parts of the contain'-` er as hereinafter more lfully desribed. In order to functionproperly'. in the fabri- `eating process and produce an article of desirable qualities, the adhesives employed forsebecoming brittle. granular, or crystalline such as to render the same incapable of sustaining the fabricating'pressures I prefer lfor'this'purpose either animal base glues which may be softened by steam, nitro-cotton Alacquers capable of being activated by more volatile solvents, or thermoplastic lacquerscontaining rubber or the like capable of being activated by heat. All of such adhesives may be activated before the ply is applied without requiring the presence of excess water or moisture,'if any at all, so that the shell dries out quickly orl sets while being fabricated. thereby obviating the tendency of the material to warp, shrink, or become distorted. Adhesives of the general type enumerated above togetherwith the ber components form 'a shell wall of `set -shape combining stiilness with flexibility so that the subsequent container forming operations can be performed eillciently.

While the use of thermoplastic adhesives is an advantage because no waterv is required as the activating agent. the heat and pressure required to work the'same involve mechanical dimculties when containers are fabricated yin quantity by machinery. I therefore prefer at present to em ploy the less expensive solvent activated adhesive which requires the use of less pressure and `heat in the fabrication of the shell. A bone glue.

suitably :plasticized if so desired. is aA quick drying and setting, flexible adhesive which gives body` to the shell without becoming brittle or granular and satises they requirements of the method as to working. This substance las a dry.

non-tacky film 3l can be activated by4 a small increase in moisture content, for example a increase in moisture applied as steam or vapor. while to apply the same adhesive in a liquid state at the time of fabrication of the shell would require a vehicle of 50 to 85% water.v I thus minimize the Apossibility of entrapping excess moisture within the body wall liable to weaken thestructure thereof so that it cannot hold up immediately available in set or gauge form for the'subsequent fabricating-operations. l

The 3l forming an impervious coating upon the outer sideofthe printed label or sheet 23 is a lacquer, such for example as a glyptal resin lacquerfof high gloss and transparency having little or no thermoplasticity compared I to that ofthe thermoplastic adhesives employed so that the 'coating 38 is not aifected by the s,1ao,soo l 'heat appued durig the shell and container forming operations.

The adhesive film 3l' upon thednner surface of the label sheet 2l for securing the sheet 28 to the contiguous inner sheet 21 preferably comprises a lacquer having an ailinity for the coating 3B to enable the cementation of the lamina- .tion 28 at the overlap 32. The adhesive comprises a high viscosity nitro-cotton dissolved in low boiling point solvents to.4 produce as viscous a solution as canbe handled lon standard 'lacquer coating machinery. A The high viscosity substance used to form the iilm 35 may be more readily activated by a volatile'solvent thanv a low viscosity cotton ,andjis`-less`iiabie to penetratev the paper.

The dry lacquer illm 35 at the timethe sheet 2l is applied about the contiguousy bulk forming v laminations of the shell may be readily activated -by a suitable volatile solvent to enable the sheet -23 to be cemented to the contiguous fiber lamination 21 of the shell, and the lacquer portions 3l and 38 at the overlap 32to unite or knit-in `forming a strong, moistureproof juncture or` lap Y before the outer sheet 23 is to be applied in forming the shell, the bone glue may be activated by steam including therein a solvent vapor which will be effective to soften the lacquer coating 38 atthe overlap 32 and thereby effect intimate moistureproof union of the overlapping Darts.

The outer sheet 2 8 (Fig. l1) is also provided with a section 38 of` thermoplastic adhesive applied directly to the lacquer surface 36 at the outside of the sheet. The section 38 is capable ofv being activated by ,heat at a temperature of about 150- to 160 F. or more; such temperature being insuillcient t'o activate the other thermoplastics or lacquers employed, which are more inert to vheating effect. The thermoplastic section 38 is positioned so as to cement the tongue I1 of the cap i6 tothe reinforced seam i3`of the completed container as hereiriafter more fully innnune or non-thermoplastic substance like,

that of the lm of lacquerv on the outer side of the sheet 28 as above described. 'I'he inner side of the liner sheet is shown coated along theoppomte. marginal portions thereof which are to constitute .the ends of the shell with a thermoplastic cement 40, preferably applied directly upon the coating 39, having the same cornpos'ition as the inner thermoplastic adhesive film` -II described above, and serving when activated 'by heat at higher 4temperatures to weld the body and heads together like the film 33 does. The sheetjl (Fig. 10) has also a narrow coating of a thermoplastic cement 4| applied thereto upon the lacquer coatingV 39 along the edge portion' which is to form the overlap 30 with the vopposite, side of the sheet.

components thereof being proportioned however The thermoplastic cementi is composed of a substance similar to that employed for the cement layerss 40, the

to render the film 4| activ table at lower tem-` peratures, say at about 1- 0l60 F. or more.4

' then moved along the mandrel 29 to progressively A'fold the sheet 26 inwardly against the opposite With the arrangement of lacquer film 39' and sections of thermoplastic cement 46,-and 4| above.l

described, the sheet 26 may bedisposedabout and conformed to the mandrel 2,9e as shown in Fig. 7 in tight fitting relation thereto and with the thermoplastic section 4| overlying the opposite side of the sheet. Upon the application -of the required heat and pressure tothe lap seam 30, the overlapping portions will be weldedl together without rendering the remainder of the coatings tacky, land thus precluding adhesion thereof `to and contamination of the mandrel.

vThe outside sheet 26 as shown in Fig. 11 may be provided with an outer coating of lacquer 42 having the composition and properties of the other outside coating 36. The. marginal edge portion of the sheet at the outside which is to be overlapped by the opposite marginal portion has a narrow coating or film 43 of-thermoplastic cement applied thereto upon the coating 42 and composed of a substance like that employed for the thermoplastic cement 4|. .The opposite or inner side of the sheet 28, as indicated at 44, is coated with a lm of adhesive 45, such as the bone glue above described which may be activated by moisture, preferably in the form'of steam. When the sheet 28 is to be disposed aboutlthe mandrel and the superimposed layers thereon as illustrated in Fig.l 9, moisture is applied tothe dry film 45 t0 soften the same. Heat at the lesser temperature above specified and pressure when applied "to the overlap 3 2 activates the thermoplastic cement 43 which together with theglue 45 causes the overlapping portions 32 to be effectivei. ly cemented together to form a moistureproof flied July i7, 1934. A

Fig. '1, the sheet 26 `(shown seam without affecting the high'gloss of the lac- -quer coating 42 or otherwisedamaging or injuring the same, and without activating the thermoplastic or lacquer portions upon the liner 26 at the inside of the4 shell. The provision of the layer of Athermoplastic cement 43 having,. unlike the high gloss lacquer .42, an affinity for the animal adhesive enables the inner and outer surfaces of the sheet 29y at the lap y32 t0 be effectively cemented together to formel moistureproof joint.

Theflacqu'er iilms 33v and 36, 0r 39 and 42 are deposited from solution upon the original fiber sheets 26 and 26 and intimately united therewith without undue penetration of the fiber. The lacquers employed havecompositions which render the same relatively hard but sufciently'fiexible to enable the 'shell to be `fabricated and to be then worked informihgthe grooves and seams without scaling, cracking or otherwise damagingl the lacquers and impairing the impervious character thereof. A l

T he container shell ,is fabricated'as shown in Figs. 'l to-9 upon the mandrel 29 which'comprises the dat side segments 46 terminating in the arcuate marginal' portions 46a and the intervening arcuate segments 41 all'arranged to be expanded `and contracted asshown and described in my copending application, Serial No. 735,563,

As i illustrated in in broken lines) is presented to the mandrel with Vthe central portion of ,the sheet in substantially tangential relation to one of the arcuate sides of .the mandrel.

' The 4sheet 2 6 is then folded over the opposite fiat sides of thev mandrel` by suitable means, suc'l'iy as. by a pair of rollers v46 'of yieldable material urged towards each other by a suitable spring The, rollers 48k are initially posi` llaps 3| and 32.

sides of the mandrelv and draw said sheet into ra smooth, close -tting relation with the man'drel.

The projecting marginal portions 49 of the sheet 26 are then drawn or folded inwardly tightly and smoothly about the remaining arcuate side of the mandrel into overlapping relation with each other by supplementary'tucking means 50 vmovable inwardly towards each other at points in close relation to the rollers 48, the latter at this stage remaining in clamping relation with the' .sheet 26 as shown in full lines. K

The tucking means 50 preferably comprise spring members movable inwardly to position as lshown in broken lines to cause engagement of the projecting sheet portions 49 with the mandrel, saidl members` 50 upon continued movement thereof sliding, or skidding over the portions 49 in yieldable engagement therewith to draw the same about the mandrel tightly and smoothiy and retain the parts in overlapping relation for the seam forming operation at 30.

The movable presser member or iron 5| is then actuated to apply pressure and heat to the overllap for rendering the adhesive 33 (or 4|) effective to secure the overlapping parts together. The member 5| has suitable heating means 52 lassociated therewith, the temperature thereof be.-4

ing controlled according to the nature of the adhesive'employed as above described. The mem- I' bers 50 and 5| remain in the position shown dur- Aing vreturn movement of the rollers 48 in engagement with the opposing portions of the ply 26,-

said rollers then subjecting the lamination 26 to a second ironing or smoothing operation.

The members 59 are then disengaged from thelap seam 36 as the mandrel 29 with the laminationl 26 securedthereon moves on its turret to the next station. The member 5I exerts a pressing action on the overlap 30 to reduce-the thickness thereof. The action is the same for the over- "The mandrel 29 is rotated at each laminating station on its axis 180' so that the overlaps 39,

3|, 32 when formed will beV located alternately at opposite ends of the mandrel? in both arcuate so as to equalize the portions i5 of the shell l0 bulk thereof.

Referring now to Fig. 8, before or as the sheet 21 moves to the position shown in broken lines,`

the adhesive'iilm 34 thereof is activated in a manner suited for the type of adhesive employed as above described. For example, when a moisture activated adhesive is used, steam jets 53 are employed for activating the adhesive. The .lamination 21- is then applied by the rollers 46 as described for the application of the lamination 26 `(Fig. '1). The rollers 43 at the second station press the plies 26 and 21 and the intervening adhesive into close relation during travel thereof. j

in both directions, and cause the air to' be exuded. from between the plies so that the adhesive 34 becomes,effective td cement the laminations `together in smooth relation coextensively with their contacting surfaces. .The edge portions 49 are folded in and overlapped bythe tucking means 56 serving also to'exude the air and cause the plies to adhere in uniform contact.V The-presser member 6| at the-second 'station is then actuated.

tocause the overlapping portions 3| to adhere. Preferably such presser member 5| is also' supplied with heat sumcient to quickly drythe intervening adhesive 34 at' the overlap 3| and-improve l mandrel will be rotated 180 from the position 1 shown in Fig. 8 to locate the -second lap seam 3| at the opposite end of the container. 10 method maybe employed for forming laminated shell structuresof variousnurnbers of plies.'l

The outer ply 28 is then applied in the manner described for the application of the plies 2i and 2l. The adhesive film 351s ilrst activated by heat, volatile solvent or moisture according to the character of the adhesive, and the rollers 4l and tucking means 50 for this station operating as above described are effective to press the layers together uniformly and cause the same to adhere. The presser member ll at this station supplied with suitable heat at l2 presses the overlapping portions of the lap seam 22J together and the heat dries the adhesive (or activates the adhesive when the thermoplastic section 43 is 25 employed) to secure good adherence of the overlap with the lacquered outer surface' 36 or 42 of said sheet 2l. c

The arcuate portions Il'of the shell It because is removed from the mandrel, tend to bow inwardly relative to the' arcuate portions. In order to obviate such bowing tendency and form a shell of substantially .se't dorm, the shell while still on the mandrel is' subjected at another station to an operation as shown in Figs. l2 and 13 for forming the grooves il and complementary 'inwardly directed ribs or shoulders-:lla in ,the 40 straight' portions Il of the shell wall as shownv ,in the drawings. Ihe `grooves Il extend across the side walls I4 and terminate in arcuate end `portions (Fig. 4) extending into` the arcuate wall portions Il for substantially only so that 45 the intervenlngparts Il' of the arcuate walls Il containing the overlaps, ll, l2 remain smooth and uniform in contour without being deformed by rib formations. y To form the grooves Il the side segments 46 50 oi the mandrel 2s including the arcuate portions a substantially '45 arcs are provided with groov Il near the opposite ends or' the mandrel c'oextensive in length with the width of the segments said grooves Bl having a cross-sec- 5 tional contour'corresponding to the desired 'form of the rib lla. All of the grooves M are preferably iormed at one operation by means of the exteriorly located groove forming means AIl prei'-4 erably comprising a pair of oppositely disposed jaws or shoes Il having the ribs u thereon--com- -Y-Y-'I'hemenibersis areprei'erably recessed.to receive Vheating elements I4 located substantially v .on4 a line with the ribs a for facilitatingthe v 'L'.l ,setting oi' the material oi' 'the ribs Ma into per- The present" manent form prior to' the disengagement ofthe shell III from the members 20 and Bl.

Each rib Ma is formed with a ledge portion Mb extending inwardly substantially horizontally or at right angles to the wall Il.' a vertical lnter- 5 mediate portion Mc and an inclined portion d merging with the vertical part c and the body wall I0 and being disposed at an angle of about -45 to the horizontal or transverse plane. The

portions sic-Md serve as a strut or brace at l0 the inner end cf the shculderub for receiving and supporting the thrust or pressure to be imposed thereon. y

The mandrel groove 51 and cooperating rib Il for forming the groove Il are made deeper than l5 the grooveto be ultimately obtained, inasmuch as I have found that the groove Il shrinks about 25% in depth after the die forming members are disengaged therefrom. The easy angular relationship of the parts llc- Md with reference to 20 the shell wall allows a deep groove Il to be drawn without imposing stresses or strains upon the-material beyond the elastic limits thereof tending to break down or otherwise weaken the rib. Y

The ribs 54a maintain the body walls in parallelism without bowing to insure the formation of sockets 65 (Fig. 14) at theends of the shell Ill of predetermined or gauge' dimeipsions for receiving the end closures or headsl seated upon the ribs sla.' 'rne ribs ua determine the positions of the.,heads II, Ila within the shell in spaced relation to the projecting marginal -edges 68 of the body which are to fonn in- 35 turned portions of the seams Il. The exterior grooves 54 may also be\ employed for guiding the shells from one station to another in-the fabricating operation into desired relation to the various tools employed. 40

The ribs 54a also receiv the thrust oi' the heads Il, Ila during the seam forming operation and obviate the need of aninternal mandrel or support during such operation as hereinafter described. To this end, the grooves Il and ribs a 45 y are made of substantial depth,'extending inwardlarly adapted structurally for fitting. the sockets 50 65 of the shells lvl in a smooth, close iitting relation with the wall thereof without buckling, wrinkling or ruilling in order to maintain vthe ilanges l2 in proper relationwith the wall Il during the seam forming operation to be described and to maintain a tight relationship therewith.

The heads Il, ila are particularly adapted for use in the fabrication of containers other than circular, and' particularly containers of materially 00 greater length than width` in cross-section having radial or arcuate portions Il of relatively short radius (substantially equal to one-half of the length of the`minor=dimension) connecting the flat side portions Il of substantial `or major dimension. 'Ihe head and the method of i'abricating the same disclosed and claimed in my copending application, Serial No.- '735.562, filed July 17, 1934, which matured into Patent No.` v 2,081,759 on May 25, 1937. l 70 As may be inferred from the drawings. thev head Il or ila is drawn irom'a flat laminated blank composed of a layer .o f foil l1 backed by one or more layers of paper il. The laminations 0l-,I8 are secured together by'sultable adhesive 75 l ila adapted 30 V to closely and smoothly t said sockets Il evenly erties.V The foil 61,` which is disposed upon the 69 serves to reinforce and to be guided into the groove recessed side of the head, renders the latter impervious' to air, moisture, and other fluids and, because of the deformable character of the foil, retains the entire structure when formed in shape with the flange I2 thereof substantially vertical, and hence the foil component contributes in securing the close fitting relation between the flange I2 and body wall I6 above described and in enhancing the hermetic or impervious qualities of thecontainer.v

The head II or IIa is also drawn with a foil reinforced rib 69 (Fig.18) formed at the juncture between the flange I2 and the hase 22. The rib stiifen the article about the margin thereof and to retain the same in shape against warping rib 69 has a complementary groove 69a at the inner side of the head between the base 22 and the inner side of the flange I2 for receiving as hereinafter described the lower portion of the, ply 66 of the reinforcing seam comprises a. wall portion 16 of substantially a 90 are extending rearwardly and outwardly relative to the base portion 22 and merging with the base of the flange I 2 and the periphery of the base portion 22 in substantially right angular relation thereto as indicated 'at 1I and 12respecclose; snug fit.

tively. The reinforcing foil component 61a-61b of the flange I2 and rib 63 retains the same in definite shape or contour. 4

n The rib 69 as thus constructed provides a' yieldable or elastic connection between the bottom portion 22 and the flange I2` which compensates for shrinkage as the article dries and tends to supplement the foil 61 in keeping the flange I2 substantially normal to the base against outward expansion. The yieldability of the rib 69 also facilitates the'insertion of the head .II into the socket 65 of the shell III and allows the' head II to be' forced into place without causing canting, buckling,v wrinkling, or other *deformation of thefiange I2v'or bottom 22.'.

The `squared shoulder Moin the shell I0 effectively resists axial movement of the head II or I Ia under the pressures or stresses applied lengthwise ofthe container and prevents the head from becoming dislodged therefrom when bending and canting strains are imposed thereon, the squared shoulders 54h and 1I interfltting in right angular relation with respect to side walls Il, `I6 to'enhance the effectiveness of the interengagement.

The shape and dimensions oi.' the groove 69a are such'as to allow the'ply 66. of the-seam I3 69a and anchored therein. The straight flange portion I2 forming one wall of the groove 69a tends to prevent rocking or swinging of theinterlocked end of the ply 66 relative to the arcuate wall portion 69 out of engagement with thegroove, and thetransverse base portion 22 of the head also serves as a brace or strut for the wall portion 69y of the thereof liable groove which precludes "movement to allow disengagement of theply 66 therefrom.

Each seam I3 is preferably formed as shown in Figs. 16 and 17 -after the head II, or IIa, is forced into the socket 65vof the shell- ID with a The outer surface of the head flange I2 is therefore in intimate contact uniformly throughout.V with the Athin, intervening lm'33 (or 46) of the thermoplastic adhesive upon y the contiguous surface of the shell'.

In order lto. hold the container shell vin position 75 during the seam forming operation, I provide a due to shrinkage. The

I3. The rib 69A guided similar holding chuck is employed for engaging the lower end of the shell and the grooves therein so that the shell is supported at both y. ends thereof.- y l By constructing the shell with thegrooves Il `therein Aand employing the chucks 13, the seam forming operation may be accomplished without requiring' internal support so that after ahead II is inserted and the seam forming operation is accomplished at one end' of the container, the contents may be inserted through the other end of the container and then that end sealed as herein shown and described.

The marginal-portion 66 of the shell is curled or flowed inwardly and downwardly about the flange I2 by an axially movable tubular member 16 slidably guided within the chuck 13. The member 16 has an endless, transversely arcuate groove 11 at the outer side ofthe lower edge thereof, Said groove having an edge 18 at the outer side thereof for shearing the material away from the inner wall 19 of the chuck 13 and a prolonged guiding portion '80 at the innerl side thereof for directing the inturned material towards the groove 63a.

'When pressure is applied to the member y1li the Alatter is moved from the position shown in broken lines to the position shown in full lines (Fig. 16)

yto flow the material of the marginal portion into the groove 69a.' as shown. The pressure exerted by the member 16 upon the shell I0 and flange I2 is transmitted .largely on a lineintersfcting the relatively wide right angular shoulder` 54bgof the shell so that the thrust is effectively token up by theribs I5 of the chuck 13.

The shelll wall and the groove 69a are` coordinated'n width` to allow the ply'66 to be freely into-the groove 69a to substantiallyv flll the same and conform to the contour thereof, due compensation being made for any enlargement or swelling of the material (shown somewhat exagger-ated at 8|) resulting from-the operation.

The multiple ply seam as thus "formed cornprises an outer portion of the shell` wall, indicated at Illa,l the inturned portion 66 and the intercalated flange I2 lhaving the foil component thereof, indicated at 61a., in contact with the ply 66. An yextremely thin layer of thermoplastic cement 33 (or 4I) is interposed between the successive plies, the thermoplastic film upon the ply4 66 vbeingin contact with the foil 61a which is preferably lacquered and embossed to forman intersticed surface for facilitating adhesion of the thermoplastic cement thereto when activated -as shown in Fig. 1'1.

In order to effect such activation and weld or vknit the plies together, at the next stage or'station the lower portion' of the shell I0 is engaged ,below the stationary bolster 62 by -a segmental chuck 63 similar to the chuck 13 (Fig. 16) which has ribs engageable with the shell grooves 54 at the lower end of the container to secure the shell in proper position relative to the bolster I2 and the operatingparts thereon. l

v'Ihe intercalated structure or other reinforcement as shown-in Fig. 16 is shaped and the plies thereof are welded together by the combined pressing and heating means indicated-atill'in Fig. 17 and adapted to engage, the outer and 8 f audace thereto. The bolster 82 is provided with heating 10 means 86 which, if so desired, may be automatically controlled to maintain the membersfor segments` 85 at temperatures sufliciently high to instantaneously activate the intervening thermoplastic Iadhesive 38' or 48. The-heat should be applied momentarily at temperatures appreciably f in excess of the temperature at which the thermoplastic is actually activated so as to render the operation instantaneous. The segments 88 are preferably composed of a metal of high conductivity compared to the conductivity of the bolster 82 so as to facilitate the flow of heat therefrom to the seam I3.

The segments 88 at the lower portion of the inner faces 81 thereof are provided with rib portions88l corresponding .in shape and depth with the grooves 8'4 in the shell I0 and reinforcing the rib 84a to receive thrust during the operation. 'I'he segment 88 at the front of the container is provided upon its inner face with a transverse rib 88 having a cross-section shaped to form in the upper portion of the seam the cover locking recess 24 having a right angular shoulder 24a and an .inclined lower portion 24h as shown also in Figs. 1 and 6. The segments 88 when -in contracted positions as shown` serve as an anvil 'for receiving the thrust of the expansibie and contractible inner part 88 of the pressing means 84.

I'he mechanism 88 is constructed to-operate in being .expanded andl contracted on substantially 40 the-same principle as the mandrel'28 shown in Fig. '7, and comprises the segments 8| (four in number) adapted to be expanded, as shown. by the reciprocating member 82. When the member 92 ismoved downwardly into 'the enlarged spaceV 83 provided between the tapered portions 84 of the-segments 8| at the lower ends thereof, the segments 8| may be-collapsed by suitable means.

The segments 8| have depending skirts 88 and` 98a at the lower ends thereof providing recesses 86 at the outer sides thereof for receiving the seam I8. The segment portions 88 which operate upon the seam at the'back and arcuate sides of the container have relatively shallow flat ribs 81 formed thereon for engagement with the seam.`

said ribs 8'| being cfa 4width less than the depth of theseam substantially as shown. I'he portion of the recess 88 above the rib 81 is enlarged to clear the bend or arcuate margin 88 -oi' the seam to allow the same to freely conform to shape when the seam is compressed.` The segment'skirt' 88o operating on the seam at the front of the container is modified in'shape at points thereof 1 Y aligned with'therib 88 `for-forming the locking groove 24 to compensate for thedeformation .of the wall line resulting from theformation of the groove 24 and to relieve the pressure applied to the material by the groove forming rib 88. For this purpose, the rib 81a on skirt 88a correspond- .70 in g to the ribs 81 on the skirts 88 is made of less width and a recess "bis provided on `skirt 88a opposite the rib 88 so that the groove 24 may be formed and the contiguous portions. of

the seam may be also compressed inwelding the -.7,5 `:parts together without pinching the materialat l' The lbody 8v of thecover comprises a iiat 'centhis point and causing rupture or damage thereto. 'I'he structural shape of the operating face of the skirt 88a is in other respectslike that of the skirts 88.

When the inner -segments 8| are momentarily `l5 Vexpanded by -member 82 to compress the material of the seam against the highly heated -outer anvil segments 88 which are contractedsimultaneously withthe operation of the segments 8|, the heat and pressure applied cause the seam to -10 conform to the .desired shape andthe thermoplastic to be activated to cause the plies of the seam, while'subjected to pressure. to bel welded or knit together in intimatecontact coextensively `with the areas under pressure and to .a lesser 415 extent therebeyondi The heat and pressure are applied momentarily by quickly operating both lthe outer and inner components and'8l of the means 84 so as to effect welding instantaneously without 'unduly heating the fiber. Pro- 42,0 longed heating at the temperatures employed f wouldl otherwise tend to carbonize. the fiber. When the segments 88 and 8| are retracted the container is then withdrawn.

Upon the application lof pressure to the seam .25 as above described,- the surplus material is squeezed lengthwise. of -the ply I8,-to cause the vanchored portion 8| Athereof to swell and expand into' close tting engagement with the foil component withinthe grooves 88a, and to'cause the 30 marginal portion 88.0fthe .seam to enlarge` or swell tol forma -roundedyieldable structure adaptedfor eneagemen withsrthe. cover I8V as hereinafter described. uch seam structure I8 is shown exaggerated in Fig. 18. .-35

f nation |88 secured by -a'suitable adhesive to form, a strong, semble, durable structure of substantially permanent gauge shape cor-A responding in shape with the seam or reinforcel ment I8.

trai portion 8|, a downwardly offset, reinforcing hat' portion 182,' a -reversely directed, resilient. arcuate portion |88 (forming a complementary groove |88a vat the innerside thereof for engagev50 ment with the seam I8) and a peripheral depending iiange or skirt |84 including the tongue portion'l'l for engagement with the outside of the container.L The skirt |84 is preferablycut. ,away-at opposite sides of the tongue or tail I'I, .55

.as indicated at |88, to allow the coverl when in open `position to clear the reinforcement I8 at the back suiilciently upon being openedl to prevent entrapmentof-particles of the container .contents between -the container .and c ver when 1m -thelatter is ciosed,and-to allow th back por-- tion |88 of the loop v|88 to flex for facilitating the. swinging ent.and disengagement of thecover-ll with the seam I8.

' Before anchoring the cap' le at 'n to the back .-65

of the'seam I8, thejlower edge df the tail |'|.is` conformed 'to the contour of the groove 84, providing the. angular anchoring portion |81, anda* transverse' section |88 of`. high compression 'isformedl therein' for determining the location of .70 the li!.1e' .f'bel1dV 2l.

The inwardly directed loog- Y. ing rib 28 is preferably formed at the same operation. in the 'intermediate front portion of the ange |84 forregistry' with locking groove' 2,4l

'when' the cover isclosed. "lheurib -28 includes a 75 'I sharp shoulder and an inclined or tapered lead stiffened area paper blank without the foil. the excess material,

l portion 'forming a spring lock reinforced by the foil component and-adapted, when the cover is closed, to firmly engage in the correspondingly shaped recess 2| in the front of theJ seam I3.A

The tail I1 is placed in position 'over the thermoplastic adhesive section 38 applied to the back surface of the seam I8 as described in connection with Fig. 1l, andheat and pressure are applied tothe juncture -in order to activate the adhesive and cement the tail I1 to the back surface of the'seam I3 with the angular portion|01 interlocking with the groove Il. The interengagement between the vparts Il and |01 provides a mechanical anchorage, supplementing the adhesion in resisting stresses on'the -anchorage i8 when the cover I8fis opened and closed. T-'he 'i I 08 determines the-location of the 'line of bend,y fulcrum or hinge 20 of the cover,

and the lin'e of connection for the -flexing straplike hinge portion |0814 (Fig. 42). The hinge line 20 is located at the juncture between the curved marginal portion |08 and the tail I1.

The width of the groove I 08a is slightly less than the normal thickness of the yieldable portion 98 of the reinforcement, I8 so that when the cover IB'is closed the parts flt each other closely with a resilient engagement like a gasket.

When the', cover is closed and locked by interengagement of the parts 2l' and 25 the inner side of the .arcuate portion |08 reinforced and trussed by the transverse reinforced center portion I'I- |02 is squeezed tightly into engagement with the inner side of the reinforcement I8 to close the mouth of the container like a stopper. 1

A i'lange drawn girom a blank composed solely `ofpaper stock, tends to flare out andlose its shape, and this is. particularly true when the flange is drawn with curving portions -of reduced v radius. When a curving flange is drawn from a lue to radius reduction, is concentrated and com- Tof pressed fi'n the curving marginal portions of the flange, causing the material to becomey hard, dense, and brittle and unlikely 'tb' hold its shape unlessreinforced in the manner herein shown and described. y

The laminated structure of the flange |04 -at the rounded or curved ends |0411` thereof par'- ticularly satisfies the requirements for gauge dimensions and permanency of shape. l When such vportions are'drawnsurplus material is concentrated therein and the foil component or lamination tends to corrugate vor pleat at' said rounded ends I04a to form asolid, stiif structure not.

rliable to expand outwardly and lose its shape. such as would be the case if paper stock were used without the fou lamination. -The'fon m mcorporated in the structure of the cap .I8 renders the wall thereof impervious and overcomes or opposes the natural tendency of the'drawn paper component to expand or flare outwardly, making .it possible to produce a cap of permanent gauge dimensions having a tight fitting, gasket-like interengagement with the reinforcement I 8, and capable of being effectively locked in closed vposition.

The laminated structure of the cap I8 including the use of flexible foil and a flexible adhesive insures the` formation of a xexible hinge at |08 capable of being flexed repeatedly without material deterioration or breakage thereof, the paper and foil components cooperating to form a strong,

durable; flexible hinge, although either material,

Ior otherwise 'damage the metal.

, ness of the metal line thereof.

purpose.

The laminated head II and the knockout 2| in the base 22 thereof are preferably formed at one operation lby the method disclosed land claimed in the aforementioned Patent No. 2,081,-

In my invention, the foil 6 1 of the heads II constitutes a deformable, pliable impervious outside layer which is less tenacious .than the ber component 88 of the head for retaining the head in lset formation and rendering the wall'thereof impervious to air and moisture. By forming about the margin of the base portion 22 a score, weakened line, or cut in the fiber component as indicated at |09 and leaving the foil component 8,41 substantially intact, I am -able to form a knockout which comprises both components of the head without impairing the imperviousness of the container..

The scoring |09 is preferably formed as an endless V-shaped groove or cut extending into the fibrous material 68 contiguousto the bead 69. The apex of the eut |09 terminates short of the 'feu s1 substantiauy at the intervening sexibie adhesive employed for securing the laminations together. 'I'he cut |09 is formed by a correspondingly shaped tool which plows into the paper spreading the material laterally to minimize compression on the foil tending to sever, bite into, The foil 81 is relieved along the cut' during the formation thereof, resulting in a. crease or rib M0 formed in the foil without appreciable reduction in the thick- The rib IIO serves as a line of tear for allowing the knockout 2| to be torn or severed with a clear cut about the shearing edge III provided at the juncture of the rib 89 therewith. The rib 69 also serves as'a yieldable buffer between the knockout 2| andthe nange I2 `forv protecting the knockout against'stresses liable to fracture the same prematurely. The shoulder 54h in the shell, the rib 89, as reinforced by the'foil 81 and the seam ply 88,` and the welding of the seam plies together if used alone, would be unsatisfactory for thev mutually contribute to form a strong, rigid struc- A 2| for. facilitatingthe manipulation in breaking the seal. This mean's comprises outwardly. projecting ribs or beads I I2 and II8 formed in the oblong base 22 of the head II at the time the latter is drawn. The ribs II2 and II3 extend transversely across the strip-like ,knockout-2| vformed. in the base 22 and termin-ate contiguous to the cut |09 at opposite sides. The ribs |I2 and IIS are spaced from each other and from the end of the knockoutto form the sections II4 and IIS capable o f being swung or folded-about said ribs II2 and II8 serving as hinges or lines of bend. The section III is preferably stifI'ened or reinforced by forming centrally therein an outwardly convex knob or protuberance I|8 ,therein 'I'he arrangement is preferably dupli-y cated at both ends of the knockout to allow manipulation from either end.

When the knob` I I8 is pressed by the ball ofthefinger, the section Ill is severed and moved inwardly to a position under section IIB. By now exerting an upward pull with the finger the sec-` tion IIB is severed and both sections` Ill-IIB may be lifted about their lines of bend atl I I2 and H9. The sections II4 and II! are now in position to be pressed together by the fingers so as to form a tab for tearing out the entire knockout if so desired. The seal 2|, however, need not be broken beyond the rib I I3 so as to leave the major portion I I1 of the seal 2I intact. When a portion of the contents of the container is removed,

' the partially severed flap I I4-I I5 may be pushed back into the mouth of the container before the cover I6 is closed so as to maintain thecontents in better condition.

In my invention, the fiber laminated shell wall I0 as more clearly illustrated in Fig. 18 is rendered substantially impervious to air and moisture by the moistureproof lacquer lms 33 and 36 deposited uponv the inner and louter surfaces thereof and extended into the seams I3, as indicated at 33a, 33h and 36a. The walls-of the heads Il and IIa are also rendered likewise impervious by the outwardlyy facing foil laminations 61 embedded within the seam at 61a between the plies I2 and 66 and extended into the groove 69a as indicated at 611). The raw edges I|8 of the shell I0 are thus seated in the grooves 69a pro-y tected by the impervious foil envelopes 61h, the foil portion 61h and the impervious film portion 36a being in contact with each other in each groove 69a to enhance the imperviousness at the juncture thereof. The raw edges I I 9 of the heads II, IIa are in like manner enclosed by the im'- pervious film portions 33a-33b. 'I'he soft foil layer 61a forms a gasket seal, supplementing the 34 and 35, and thus allowing the employment of adhesives which are moisture activated for securing the laminations together.

'I'he impervious shell wall I0 as thus formed is thoroughly protected at the inner and outer surfaces, the raw edges I I8 and lap seams 30 and 32 thereof against the entry of moisture to the interior of the structure liable to impair the strength and durability thereof and cause the same to ultimately leak.

The use of a thermoplastic adhesive, such as the nitrocellulose lacquers plasticized to have the properties above described, for welding or knitting the plies of seams, reinforcements or other overy lapping parts together marks a distinct advance in the art of fiber containers. By employingrelatively thin films of thermoplastic lacquer having a relatively low diffusivity when activated, I am able to weld or knit together opposing parts having porous or intersticed contiguous surfaces by subjecting the parts and the ilm of adhesive disposed therebetween in a dry state momentarily to the action of pressure and heat to form instantaneously a hermetic seal between the parts and a strong durable juncture incapable of being ruptured or released in ordinary usage. While I do not desire to be bound by a theory of operation, it is believed that in the method described4 the activated adhesive because of its low diffusivity is forced by the pressure into the interstices of the opposing surfaces and is available in its en tirety for filling the surface interstices and welding thev parts together in intimate contact without being excessively absorbed by or dissipated throughout the porous mass which would render the film unavailable at the immediate juncture of the parts for forming the seal and weld.

The seam I3 constructed in accordance with my invention while of simple mechanical structure is substantially air tight and remains so under the stresses and strains ordinarily imposed on the container.- For example, when an air tight container constructed as herein shown and described is sealed under one condition of atmospheric pressure, variations in ,outside temperature or barometric conditions vcause differences in pressure be# tween the inside and the outside ofthe container tending to impose. rupturing stresses thereon which are effectively resisted by the seams I3 when constructed lin accordance with the present invention.

By forming the locking recess 24 in the seam I3 or other reinforcement simultaneously with the welding step under heat and pressure, and relieving `the pressure at the rear ofthe recess forming rib 83 as shown in Fig. 17, a recess 24 of set shape is produced having the wall thereof under substantially the same compression as the contiguous wall portions of the seam, the successive plies of the seam .including the foil-61a being deformed by the recessforming operation into interlocking relation.A The cooperating catch 25 formed inthe foil laminated'vstructurevof the cover I6 is also of set formation adapted to readily spring into and intert with the groove 24 when the cover is closed. By locating the cover locking means 23 substantially contiguous to the base of the arcuate portion I'03, the spring action is more effective and the parts 24 and 25 more-firmly interlock. v

By my invention, containers, and particularly containers having straight and arcuate wall portions, may be fabricated in quantity at low cost. 'I'he resulting container is strong and durable, of

light weight and pleasing appearance, forming a hermetically sealed package capable of preserving the contents thereof in condition for prolonged periods.

head within the shell, and welding the latter partstogether by activating the intervening portion of said lacquer liner.

2. In the art of making containers comprising fibrous material, the method which comprises forming a multiple ply reinforcement at an end of a container body, subjecting the plies to the action of laterally applied pressure and of heat and activating thereby a thermoplastic adhesive in a dry state prevouslydisposed between the plies, and at the same operation impressing a deformation on the material at one side of the reinforcement while compensating therefor at the opposite side of the reinforcement to form the parts compressed of substantially uniform thickness.

3. In the art of making containers comprising fibrous material, the method which comprises forming separate sheets with dry films of adhemarginal portions thereof, activating the intervening portion of said lacquer liner and cementing the overlappingportions together thereby, activating a dry adhesive film upon another sheet,l and securing the sheet about and to the contiguous inner sheet by said adhesive, activating a dry adhesive film upon the inner face of an outer sheet having a lacquer film upon the outer face thereof, securing said last named sheet about and to the contiguous inner sheet by said adhesive, and overlapping the marginal portions of vsaid last named sheet and securing the laps together by intervening activated portions of said inner and outer films.`

5. In the art of making containers comprising fibrous material, the methodof forming laminated shells which comprises presenting each lamination centrally thereof to a rounded portion of a mandrel having straight sides and connecting rounded portions, drawing the lamination progressively from'the middle thereof towards the.,

margins about the mandrel at opposite sides, tucking the marginal portions of the lamination inwardly and drawing the same into overlapping relation about the `other rounded side of the mandrel, cementing the overlapping parts together by pressure and heat, and controlling the operation to form the lap seams alternately atone and then the other rounded sides of the shell. 6. In a container comprising brous material.

' a shell having, a reinforcement at the edge thereof, and ,a cover having a foil laminated structure hinged to said reinforcement at the rear thereof, said reinforcement and said cover having interlocking portions formed at the front thereof for retaining the cover in closed position.

'7. The method of making a container comprising fibrous materials which includes forming a shell by successively wrapping a plurality of flexible blanks about a mandrel, adhesively securing each blank to a contiguous blank throughout the contacting areas thereof during Ithe wrapping operation by a solvent activated adhesive previ-- ously applied to the blanks as dry films, and adhesively joining the overlapping ends of each of said blanks.

l,8. The method of making a container comprising fibrous materials which includes the steps of coating a plurality of blanks with reactivatable adhesives, allowing said coating to dry, forming a shell by successively wrapping said blanks about a mandrel, activating the adhesive film on each blank immediately prior to the wrapping thereof, and pressing each blank into rm engagement with a contiguous blank during the wrapping operation. l

9. The method' of -making a container comprising brous materials which includes coatingthe marginal portion of one side and both end s of a blank with thermoplastic lacquer having potential adhesive properties, allowing the lacquer tov become dry, forming the blank into a tubular bodywith the lacquer coating inside and with the edges overlapping, securing said overlapping edges y with said lacquer coating by the` application of f heat and pressure', inserting a flanged closure in each end of said body, and ,securing and sealing said closures in place with said lacquer coating by the application of heat and pressure.

l0. The method of making a container comprising fibrous materials which includes applying a coating of lacquer having potential adhesive properties to the surface of a blank, allowing said lacquer coating to become dry, forming the blank into a tubular body with the lacquer coating inside and with the edges overlapping, securing said overlapping. edges together by activating the lacquer coatingtherebetween, inserting a flanged closure in each end of said body, and securing and sealing said closures in place by activating the lacquer coating interposed between said body and the flanges of saidclosures.

11. The method of making a container comprising brousmaterials which includes coating the marginal portion of one side and both ends of a blanklwith thermoplastic lacquer having potential adhesive properties, allowing the lacquer to, become dry, forming the blank -into a tubular body with the lacquer coating inside and with the edges overlapping, securing said overlapping edges with said lacquer coating by the application of heat and pressure, inserting a flanged closure in each end of said body, folding the marginal por-` tions of said body into overlapping relation with l-the flanges of said closures,'and securing and sealing said closures in place with said lacquer coating by the application of heat and pressure.

l2. 'I'he method of making a container comprising fibrous materials which includes coating one entire surface of a blank with a thermoplastic lacquer havingv adhesive properties, al-

llowing the lacquer to become dry, forming the blank into a tubular body with the lacquer coating inside and with the edgesoverlapping, securing said overlapping 4edges together with the lacquer coating interposed therebetween by application of heat and pressure, inserting a flanged closure in each end of said body, and securing said closures in place by activating the intervening lacquer coating by the application of heat and pressure.

13. The method of making a container comprising fibrous materials which includes coatingl a blank with a dry film of thermoplastic lacquer having potential adhesive properties, forming the blank into a tubular body with the lacquer coating inside and with the edges overlapping,

securing said overlapping edges with said lacquer coating, securing one or more additional blanks to said body by means of reactivated adhesives previously applied to said additional blanks as dry films, inserting a flanged closure in each end ,of said body, and securing said closures in place by activating said lacquer coating between the wall of said body and the flangesV of said closures.

14. The method of' making a container comprising fibrous materials which includes coating the marginal portion of one end of a blank with a composition having adhesive properties, allowing the coating to become dry, forming a tubular body comprising said blank with the',

coating of the latter inside, forming an inwardly directed rib and an' external groove complementary to said rib near one end of said body, placing a flanged closure in said body -in contact with i said rib, Icurling the marginal portion of the body into overlapping relation with the flange of said closure while holding said body by means externally thereof and extending into said groove, and sealing said marginal portion and the fiange of said closure together with said coating by the i application of heat and pressure.

15. The method of making a container comprising fibrous materials which includes coating the marginal portion of one end of a blank with a composition having adhesive properties, allowing the coating to become dry, forming -a tubular body comprising said blank withV the coating of the latter inside, forming an inwardly directed rib and an external groove' complementary to said rib near one end of said body, placing a 'flanged closure in said 'body in contact with said rib, curling the marginal portion of the body into overlapping relation with the flange of said closure while holding said body by means externally thereof and extending into said groove, and-sealing said marginal portion and the fiange of said closure together by reactivating said adhesive -coating interposed therebetween and applying a flanged closure in each end of said body in contact with said ribs, folding the coated marginal portions of said body into overlapping relation with the flanges of said closures, while holding said body by. means extending into said groove, and activating the coating between said marginal portions and said ariges and applying pressure thereto to form impervious closure seams.

17. The method of making a container com- .l prising fibrous materials which includes forming a. shell with an inwardly directed rib therein and an external groove complementary to said rib near one end of said shell,`placing a flanged head in said shell in contact with said rib, curling the marginal portion of the shell into overlapping relation with the flange of said head while holding said shell by means externally thereof and extending into said groove, activating a dry film having adhesive properties interposed between said marginal portion and flange, and applying substantial pressure to press said marginal portion and flange into intimate contact around the entire periphery thereof.

18. In the art vof making containers comprising iibrous material, the method which comprises assembling a tubular shell having an external groove and a flanged head with a dry film of thermoplastic adhesive between said shell -and the flange of the head, curling the marginall portion of the shell into-overlapping relation with the iiange of the head while holding the shell by means externally thereof and extending into said groove, and subjecting said .curled portion and flange to the action of pressureand'heat to activate said adhesive and weld the parts together..

19. In the art of making containers comprising fibrous material, the method which comprises disposing separate sheets one at a time about a mandrel in superimposed relation, overlapping and cementing together marginal `portions of each sheet when the same is applied about the mandrel to secure the sheet in position thereon, and reactivating a dry adhesive coating on each succeeding sheet and securing the latter to a contiguous previously hesive.

20. In the art of making containers comprising fibrous materials, the method which comprises disposing separate sheets one at a time, about a mandrel in superimposed relation and with the ends of each sheet in overlapping relation, securing the overlapped ends of each sheet together at the time of application by a reactivated adhesive previously disposed upon the sheet as a dry film, and securing each succeeding sheet at the time of application thereof to the contiguous previously applied sheet throughout the adjacent surfaces thereof by means of a reactivated'adhesive previously disposed upon one of the sheets as a dry film.

2l. In the art of making containers comprising fibrous material, the method which comprises disposing a sheet about a mandrel with the ends thereof overlapping, cementing together the marginal portions of said sheet to secure the same in position on the mandrel, coating one or more sheets with fil-ms of reactivatable adhesive mateapplied sheet with said adrial, allowing said films to dry, applying a small' amount of moisture to the adhesive coating on each of said sheets to render said coating tacky, successively disposing said adhesively coated sheets one ata time about said mandrel, and. securing each succeeding sheet to the contiguous previously applied sheet with the activated adhesive coating by the application of pressure.

22. In the art of making containers comprising fibrous material, the method of forming laminated shells which comprises presenting each lamination centrally thereof to a mandrel, drawing each lamination progressively from the middle thereof towards the margins about the mandrel at opposite sides, tucking the marginal portions of eachlamination inwardly and drawing the same into overlapping relation about the mandrel, cementing the overlapping portions together under pressure, and cementing the second and each succeeding lamination to the contiguous previously applied lamination under pressure by a reactivated adhesive previously applied thereto as a dry film.

23. In the art of making containers comprising fibrous material, the method of forming a laminated shell which comprises presenting each lamination centrally thereof to a rounded portion of a mandrel having straight sides and connected rounding portions, drawing each lamination progressively from the middle thereof towards the margins about the mandrel at opposite sides, tucking the marginal portions of each ing each lamination progressively from thev middle thereof towards the margins about the mandrel at opposite sides, and cementingthe second and each succeeding lamination to the previously applied lamination under pressure by a reactivated adhesive previously applied thereto as a dry film.

25. In the art of making containers comprising fibrous material, the method of forming a laminated shell which comprises presenting each lamination centrally thereof to a rounded portion of a mandrel having straight sides and connecting rounded portions, drawing the lamination progressively from the middle thereof 'towards the margins about the mandrel atI opposite sides, tucking the marginal portions of each lamination inwardly about the other rounded side of the mandrel, and `cementing the second and each succeeding lamination to the previously applied lamination under pressurejby a reactivated adhesive previously applied thereto as a dry film. 26.A container comprising a tubular shell including fibrous material and a iianged head dis- 'posed therein, said head being composedv of laminations of fibrous material and' foil, the foil component reinforcing the brous component of thel iiange and rendering' the wall vof said head substantially impervious to air and moisture, the marginal portion of said shell being infolded into overlapping relation with theange of said head andy secured thereto by a previously applied and reactivated adhesive.

27. In a container, a tubular shell comprising fibrous material and having straight and arcuate comprising fibrous material and'having. an obwall portions, and a flanged head of corresponding shape drawn from a blank comprising fibrous material and a material of greater impermeability,

said head being disposed within said shell and having the flange thereof in close fitting relation with .the inner surface of said shell and the marginal portion of said shell being folded inwardly about said flange and secured thereto entirely around the periphery thereof by a `re1 activatable adhesive to form a multiple-ply closure seam.

28. In a container, a tubular shell comprising fibrous materials and acovering of greater impermeability than said'iibrous material, said shell having straight and arcuate wall portions, and a anged closure of corresponding shape drawn from a blankcomprising brous material and a material of greater impermeability than said fibrous material, said closure being disposedV within said shell and having the flange thereof in close fitting relationwith the inner surface of said shell and the marginal portion of said shell being folded into overlapping relation with said flange and securedthereto by a reactivatable adhesive entirely around the periphery thereof to forma multiple-ply closure seam.

29. In a container, a shell comprising brous materials. said'shell having straight and arcuate wall portions and an internal rib in the wall `thereof, and a flanged head of corresponding shape drawn from a blank comprising fibrous and foll'laminations, said head being disposed within said shell against said"rib and having the ange ,thereof in close tting relation with the inner surface oi said shell and secured in, place by a previously applied and reactivated adhesive.

30. The combination in-acontainer of a body long cross section with straight wall portions connected by arcuate wall portions, and a flanged closure of corresponding shape and comprising fibrous materials, said closure being disposed within the end of said body and including straight and arcuate flange portions, the margin of said l body being curled intoV overlapping relation with the'flange of saidclosure and secured thereto by a reactivatable adhesive. u

l31. In a container, a tubular laminated shell comprising a plurality of blanks, each of said blanks being adhesively secured to avcontiguous blank throughout the contacting surfaces thereof, and a flanged closure in each end of said shell,

` the marginal portions of -said shell being infolded into overlapping relation with the anges of said closures and secured thereto by a previously ap" r plied and reactivated adhesive.

32. In a container, a tubular laminated shell comprising'a plurality of blanks, each of said blanks being adhesively secured to acontiguous blankv throughout the'contacting surfaces thereof, a liner in said shell including a lacquer lm adapted to be rendered tacky, a laminated hanged closure having a lamina of impervious material in each end of said shell, the marginal portions of said shell being infolded into overlapping relation with the anges of said closures and Aadl hesively secured thereto by said lacquer lm.

33. 'I'he method of making a container comprising fibrous materials which includes coating `at least a portion of one surface of a blank with a4 composition having adhesive properties, allowing said coating to become dry, forming a tubular body including said blank with the composition coating on the latter inside the body and with the yedges of edges together by activating the composition coating therebetween, inserting a flanged closure in eachend of said body, and securing said closures in place by activating the composition coating interposed between said body and the anges of said closures and applying pressure thereto.

- the blank overlapping, securing saidoverlapping 34. The method of making a container com-.

prising brous materials which includes coating at least a portion of one surface of a blank with i a composition having adhesive properties, allow-I ing said coating to become dry, forming a tubular bodyv including said blankiwith the composition composition coating interposed between said body y and the ilangesof said closures and applying pressure thereto. 4

GEORGE ARLINGTON MOORE.. 

